JP2008514340A - Method and system for coloring or tinting a prosthesis, and such a prosthesis - Google Patents

Abstract

In a method for a dental prosthesis, preferably a porcelain-coated crown, a color or hue that is visible from the outside of the prosthesis is obtained. During manufacturing, the crown is coated with metal and / or ceramic powder by a powder printer that can be controlled by a computer device. The invention also relates to a system for carrying out such a method and a dental prosthesis produced by such a method in such a system. A practical and quick application function is obtained, which can be implemented with results that look very natural.
[Selection] Figure 3

Description

  The present invention relates to a method for obtaining a coloring or hue visible from the outside of a dental prosthesis, for example on a porcelain-coated crown. The invention also relates to a system for generating a color or hue on a dental prosthesis. The invention also relates to such a prosthesis or part.

  It is already known to manually color or paint dental products such as porcelain-coated crowns. It is also known from other fields than dentistry to spray coat the components with metal powder. An example is the Arcam (registered trademark) system. It is also already known to construct a fully automated manufacturing system for dental components. An example is the PROCERA® system used by the applicant. In this connection reference is made, for example, to Swedish patent application 0302971-1.

  Also known from EP 1396237 A1 is a system for producing sufficient ceramic tooth restorations in which coloring can be achieved by tooth restorations impregnated in suitable colors.

  There is a significant need to improve the technology used and speed up the manufacturing procedure in the coloring and tinting of dental products or parts thereof. It is also important that the techniques and equipment used in the dental field can still be used without too much improvement. In this regard, the time factor is an important parameter and the manufacturing time should be substantially reduced. There is therefore a need to be able to avoid time-consuming painting and impregnation operations. The object of the present invention is notably to solve this problem.

  In coloring and tinting, it is important to be able to optimize the function of the prosthesis on the oral environment where it is to be used. The patient's teeth have a hue that depends on both the individual and age, and there are considerable variations. It may be convenient to use general knowledge and experience to obtain colors that look accurate and natural. In particular, it is important to simulate and maintain the area of the front teeth, and in this regard it must be possible to create fully colored teeth that blend in an optimal manner that looks natural with other teeth, for example. . Early work, including application by painting, must be able to be transferred to a computing device environment used for natural-looking coloring, decoration, and the like. The object of the present invention is also to solve this problem.

  A feature that can be regarded as the main characterizing method according to the invention is that during manufacture, the crown is coated with metal and / or ceramic powder by a powder printing machine (pistol, nozzle, etc.) controlled by a computer device. That's what it means.

  In one embodiment, the first porcelain-coated crown is produced. The internal shape of the crown is milled and applied on the die. On its upper surface, the crown can be coated with the metal and / or powder. The coating is then dried and melted wax is applied and contoured. The contoured wax is placed in the cuvette with the crown and the wax is removed with heat. A space is thus created in the powder-coated surface, and a porcelain material is introduced into the space and cured. In an alternative embodiment, the porcelain coated crown is made up of multiple layers applied on top of each other by spraying the metal (s) and / or ceramic (s) in the powder form of each layer. It is comprised so that it may have. During or during the spraying operation, functions for coloring or hueing are initiated or included. The overall coloring or hueing can be done by a combination of coloring or hueing arrangements applied on top of each other or after each other. Further developments of the invention are defined in the dependent claims relating to the novel method.

  A feature that can be regarded as the main characterizing dental prosthesis, preferably a dental prosthesis in the form of a porcelain-coated crown, is that the prosthesis consists of a metal and / or ceramic powder applied and dried Including internal coloring or tinting.

  In a preferred embodiment, the prosthesis includes an internal coloring or tinting consisting of layers of said powder disposed on top of each other.

  The coloring or hue can be selected as a function of coloring adjacent to the prosthesis and / or tooth or for decorative purposes.

  The main feature of the system according to the invention is that the color printing machine (pistol, nozzle, etc.) is designed to emit a powder jet directed at the prosthesis or prosthetic part in question as a function of activation. To do. The activation can be controlled or initiated by information from a computer device that interacts with the user and controls coloring or hueing by activation of the computer device.

  In a further development of the system, information from the computer device can be communicated to a manufacturing unit, which essentially consists of a fully automated manufacturing system, for example a system in the form of PROCERA®. Where the coloring or hueing function can be input as a module unit during other processing functions of the manufacturing system. An example of such a manufacturing system is described in the above-mentioned Swedish patent application 0302971-7. A color printer or the like can operate at essentially 45 ° with respect to the actual surface to be coated of the dental prosthesis or prosthetic part.

  With the suggestions above, it is possible to obtain much quicker and generally more general coloring and hueing. Colors or hues can be created from the inside, the porcelain is transparent, and as a function of its placement, it creates various refractions and appearances that, in combination with the crown placement, simulate the natural appearance in an excellent way. The new advantages are particularly pronounced in the area of the front teeth. When using the present invention, the time factor is less important compared to previously used painting operations. Charts and libraries can be organized for experience gained gradually in the art, and fully automated manufacturing systems can be provided with CAD modules adapted to modules that already exist . The color can be sprayed and dried, for example, before pressing the porcelain. The color diffuses and looks natural and is created inside the prosthesis. The result is also advantageous in terms of strength, and the reflection of the porcelain part can be used and can be emphasized as a function of its thickness and its actual spread and spread with respect to the crown. In a computer device, the coloring can be simulated with various color arrangements arranged on top of each other.

Presently proposed embodiments of the method, dental prosthesis and system according to the invention will be described below with reference to the accompanying figures. In the figure:
FIG. 1 shows a cross-sectional view of a prosthesis in the form of a chin bone portion and associated gingiva and residual tooth residue and a porcelain-coated crown placed thereon.
FIG. 2 shows in block diagram form the connection of the new device to an existing essentially fully automated PROCERA® type manufacturing system.
FIG. 3 shows the essential function of applying powder to the crown by means of a color printing machine or color pistol controlled by information from a computer device, in a perspective view from above, where the upper part of the crown is Shown additionally enlarged.
FIG. 4 shows a plan view of the powder applied to the upper surface of the crown by the color printing machine according to FIG.
FIG. 5 shows a cross-sectional view of the construction of the layer on the crown and the application of the laminated powder / color.
FIG. 6 shows a flow chart of a production method for the production of a porcelain coated crown.

  In FIG. 1, the jawbone in the human oral cavity 1 is indicated by 2. Jaw gingiva is indicated by 3. A ground tooth or tooth residue has the reference number 4 and the prosthesis is generally designated 5. In the case shown, the prosthesis has the form of a crown 6 and has a porcelain part or porcelain lining 7 on its outside. The inner surface 6a of the crown is adjacent to the outer surface 4a of the tooth with great accuracy.

  The porcelain-coated crown can be produced in an essentially fully automated production system 8 according to FIG. According to the inventive concept, information about the crown and porcelain according to FIG. 1 is simulated, started and transmitted to the system 8 using the customer-based device 9. The transmission can be performed via the public telephone network 10 and / or the computer network (Internet). The start and transfer information is symbolized by the symbol i1 and is received by the system 8 in the information signal i1 ′, which are input to the receiving device 11. The receiving device carries information to the unit 12, and the transmission signal at this point is indicated by the symbol i2. The system 8 can confirm receipt with the customer location 9 and can communicate further information related thereto. The signal from the system to the customer 9 is transmitted from the unit 11 and is indicated by the symbol i3. The system is provided with a module unit 13 which is controlled by the unit 12. Control can include color selection 14, which is communicated to unit 15 in module unit 13. The module unit 13 can also receive information regarding the number of layers and the layer thickness, as symbolized by the arrow 16 and the partial unit 17. The drying time or the like can be executed by the control information 18 and the unit part 19 or the like. Final manufacture in the system 8 can result in a prosthesis or prosthetic part 5 'which is returned to the customer location 9 in a known manner, such as by mail, recorded delivery, courier, etc. Customer location 9 includes a computer device in a known manner.

  In FIG. 3, reference numeral 20 indicates a computer apparatus, and reference numeral 21 indicates a screen of the computer apparatus. On the screen, the user (dental technician) 22 can start or simulate the crown 23 applied on the die 24. A color printer or its equivalent 25 can also be shown on the screen. The interactive use between the user and the computer device can be wireless, for example by voice, as indicated by reference numeral 26. Alternatively, interactive use can be via a keyboard (not shown) in a known manner. Information from the computer device regarding the coloring is sent digitally as symbolized by the reference numeral 27. The system can operate in a number of basic colors, the connection lines for these being indicated by reference numeral 28. The color printing machine is indicated by reference numeral 29 and the direction of movement is indicated by the arrow 30. The color printer includes a mixing unit 31 for mixing colors to obtain the desired color or hue defined by the computer, indicated by arrow 32. In FIG. 3, the actual die corresponding to the die 24 on the screen 21 is indicated by reference numeral 24 '. In a corresponding manner, the crown 23 on the screen is indicated by reference numeral 23 '. The die is provided on a tool 33, which can be rotated about its longitudinal axis 34 in a counterclockwise direction 35, for example. The tool and color printer can be moved relative to each other in the vertical direction, and the longitudinal axis 36 of the color printer can optionally be a real tooth during the application of powder 37 'with color in liquid form (glycerol-based). An inclination of essentially about 45 ° with respect to the outer surface 23a of the crown can be employed. An actual crown 23 'can be manufactured as follows. The crown 23 ′ located inside the porcelain portion 37 is natural for the porcelain-coated crown when the porcelain-coated crown is placed in the patient's mouth according to the lower portion of FIG. 3. Coated with color powder in different strips 38, 39 and quantities to obtain a visible reproduction. The upward and downward movement of the tool is indicated by arrows 41 and the movement of the crown 23 'position in cooperation with the color printing machine to the internal position of the porcelain part is indicated by arrows 42.

  According to FIG. 4, the upper surface 23b of the crown can be coated with various strip colors (see 38 ', 39' and 40 '). Similarly, various accumulations 43, 44, 45 and 46 of colors can be applied. The pattern, along with color and strip location, reproduces the desired overall coloration or hue. The overall coloring can be done based on tests and experiences that can be defined in the charts or tables to be used in the various environments that arise. In the figure, the porcelain coated part is indicated by reference numeral 37. The spread of the surface 23b corresponding to the spread of the porcelain portion can be included in the coloring pattern. A further parameter is the height H between the top of the crown and the top of the porcelain part shown in FIG. 1, which is important for the final result.

  FIG. 5 is intended to show the case where the crown is constructed with various layers 47, 48 and 49 with the aid of a color printer 29 (see FIG. 3) or a corresponding device. The color powder according to FIG. 4 can also be applied in various layers, two of which are indicated by the numerals 50 and 51 in FIG. 5 through the use of so-called internal color change modifiers. By combining the layers and placing them on top of each other, the final coloring or hueing results can be influenced. Thus, the color printing machine 29 according to FIG. 3 can be used on the one hand for constructing the crown 23 'and on the other hand for coloring the crown 23'. Instead, two different devices can be used. The same technique can be used in the manufacture or simulation of crowns on a computer screen, and the simulation function can be program controlled.

  As shown in FIG. 6, the production of a porcelain-coated crown is quite similar to the system described in the above-mentioned Swedish patent application 0302971-7. In the first stage 52, the order is placed in the production unit 8 according to FIG. The production unit executes data that is sent to the production system (see above-mentioned Swedish patent application). In the manufacturing stage, the crown is manufactured according to known methods, for example made from aluminum oxide or zirconium oxide. In the subsequent stage, the internal shape of the crown is milled. The impression compound is introduced into the crown at step 55 and the impression is used to hold the crown on the die. The crown is provided on the die at step 56. Thereafter, painting can be performed in step 57 according to the above, and drying and / or curing of a particular color is performed in step 58. As with known manufacturing procedures, this is followed by application of molten wax, milling of the external shape into the hardened wax, and application of casting channels into the wax according to steps 59, 60 and 61. In accordance with the above, the dental technician / person placing the order paints or colors the crown in a CAD environment. The color data can then be combined for the crown, and information about this is transmitted digitally to the production unit 8 via orders in a known manner. The color printer in the manufacturing unit applies the color to the crown according to the pattern and as specified by the dental technician. Therefore, the color printing machine is arranged in the production unit 8.

  According to the invention, a large number of basic colors, for example 5 to 15, preferably 9 or 10, are used, which are dark, brown, pink, caramel, white, purple, stain orange. It can be a basic dental color known to dental technicians such as

  The present invention is not limited to the embodiments described above for purposes of illustration, but can be modified within the scope of the appended claims and inventive concept.

FIG. 3 shows a cross-sectional view of a prosthesis in the form of a jawbone portion and associated gums and ground tooth residues, and a porcelain-coated crown disposed thereon. The connection of the new device to an existing essentially fully automated PROCERA® type manufacturing system is shown in block diagram form. The essential functions relating to the application of powder to the crown by means of a color printing machine or color pistol controlled by information from the computer device are shown in a perspective view from above. Fig. 4 shows a top view of the powder applied to the upper surface of the crown by the color printing machine according to Fig. 3; FIG. 4 shows a cross-sectional view of layer construction on a crown and application of laminated powder / color. 1 shows a flowchart of a production method for the production of a porcelain coated crown.

Claims (14)

  In a method for obtaining a dental prosthesis, for example a porcelain-coated crown, on top of a color or hue visible from the outside of the prosthesis, based on information from a powder printer controlled by a computer device during manufacture The crown is coated with metal and / or ceramic powder.   In manufacturing, the crown is manufactured and its internal shape is milled and applied onto the die, the upper surface of the crown is coated with the powder, the powder coating is dried and / or hardened The molten wax is applied and contoured, and the contoured molten wax is placed in the cuvette and removed with heat, and the thus created powder coated surface is porcelain. The method according to claim 1, wherein the material is introduced and cured.   In the production of a dental prosthesis, preferably a porcelain-coated crown, the prosthesis and its coating are simulated in a computer device and / or metal (s) and / or ceramic in powder form of each layer Constructed to have multiple layers applied on top of each other by spraying (s) and function for coloring or hueing during or during the spraying operation The method of claim 1, wherein the method is started, started, or included.   4. A method according to claim 3, characterized in that the overall coloring or hueing is done by a combination of coloring or hueing arrangements applied on top of each other or after each other.   5. A method according to any one of claims 1 to 4, characterized in that the performance of coloring or tinting is also determined by the thickness of the porcelain and its extent and relationship to the upper surface of the crown.   Coloring or hueing is determined using a number of basic colors, for example 5 to 15 basic colors, preferably 9 to 10 basic colors. The method according to item.   7. A method according to any one of the preceding claims, characterized in that the coloring or tinting is determined mainly by reflections created in the porcelain part.   Dental prosthesis, preferably in the form of a porcelain-coated crown, characterized in that it comprises an internal coloring or tinting consisting of applied and dried metal and / or ceramic powder.   9. Dental prosthesis according to claim 8, characterized in that it comprises an internal coloring or tinting consisting of layers of said powder arranged on top of each other.   10. Dental prosthesis according to claim 8 or 9, characterized in that the coloring or hue is selected as a function of coloring adjacent to the prosthesis and teeth, or for decorative purposes.   In a system for obtaining a color or hue in or on a dental prosthesis, for example a porcelain-coated crown, a color printer (pistol, nozzle, etc.) is used as a function of the prosthesis in question. Or designed to emit a powder jet directed at the prosthetic part, and activation can be controlled or initiated by information from a computer device interacting with the user, and colored by activation of the computer device Or a system characterized by controlling hueing.   The system of claim 11, wherein information from the computing device can be communicated to the manufacturing unit.   The manufacturing unit consists essentially of a fully automated manufacturing system, for example a system in the form of PROCERA®, in which the coloring or tinting function is entered as a modular unit during other processing functions of the manufacturing system 13. The system of claim 12, wherein the system is capable.   14. System according to claim 11, 12 or 13, characterized in that the color printing machine operates essentially at 45 [deg.] With respect to the coated surface of the dental prosthesis or prosthetic part.

Images